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PHYS219 Fall semester 2014 Lecture 27: Nuclear Structure Dimitrios Giannios Purdue University PHYS 219 Final Exam Thursday; December 18, 2014 1 PM-3 PM.

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Presentation on theme: "PHYS219 Fall semester 2014 Lecture 27: Nuclear Structure Dimitrios Giannios Purdue University PHYS 219 Final Exam Thursday; December 18, 2014 1 PM-3 PM."— Presentation transcript:

1 PHYS219 Fall semester 2014 Lecture 27: Nuclear Structure Dimitrios Giannios Purdue University PHYS 219 Final Exam Thursday; December 18, 2014 1 PM-3 PM PHYS 112 Topics covered in Chapters24, 25, 28, 29, 30 Please, respond to the Course Evaluation Survey

2 Source: www.chemicool.com/elements/www.chemicool.com/elements/ OSMIAC- Oxygen, Silicon, Magnesium, Iron, Aluminum, and Calcium Number of chemical elements: 118 elements have been identified. Most abundant on earth: 6 elements account for 99% of the earth’s mass: oxygen, silicon, magnesium, iron, aluminum, and calcium How do you measure the size of the nucleus????

3 Measuring the Size of the Nucleus Two Limiting Scenarios: Result A: Box is filled with soft, fluffy material Result B: Box is filled with hard, rigid material Scattering Experiments: The Basic Idea B A What’s inside the box? KEY QUESTION: We know the foil is made of (gold) atoms that are electrically neutral. But how are the + and - charges distributed?

4 Evidence for a Massive Nucleus: Rutherford’s Scattering Experiments - (Rutherford 1911) Conservation of energy and momentum imply the presence of small “heavy objects”. Rutherford concludes that the “heavy objects” are roughly ~10,000 times smaller than an atom!! A few of the particles are backscattered! 4,000 3,000 2,000 1,000 0 45 90 135 180 N u m b e r o f E v e n ts Typical Rutherford Scattering (172,000 events) x10 Scattering angle (+)

5 http://phet.colorado.edu/simulations/sims.php?sim=Rutherford_Scattering Rutherford Computer Simulation

6 Bohr’s orbits Atom (diameter  0.2 nm) Rutherford’s “heavy objects” Nucleus (diameter  3 fm) electrons protons Neutrons 1 fm = 1×10 -15 m Composition and Approximate Dimensions of an Atom

7 Also written as: A = mass number = Z+N Z = number of protons = atomic number N= A-Z = number of neutrons Examples: ~10 -15 m X=Chemical Element Nucleons – the basic building blocks of the nucleus

8 Isotopes - same element but different mass More than 2000 isotopes have been identified! About 400 are considered stable; about 1600 of them undergo radioactive decay. 111111 012012 111111 Hydrogen Stable Deuterium (1/6000) Stable Tritium (1 in 10 17 ) decays-12.3 yrs 92 143 146 92 U-235(0.72%) decays-700Myrs 92 U-238 (99.27%) decays-5Gyrs protonsneutronselectrons

9 Notes: 1 C = 1 Coulomb; m p + m e = 1.674 x 10 -27 kg Diagram not to scale Electrically Neutral Atom Atom diam. ~ 0.2 nm (or 2 x 10 -10 m) e-e- e-e- e-e-e-e- e-e- Mostly empty space! The diameter of nucleus is ~10 4 smaller than the diameter of the atom neutronprotonelectron symbol charge mass n 0 (zero) 1.675 x 10 -27 kg P +1.602 x 10 -19 C 1.673 x 10 -27 kg e - -1.602 x 10 -19 C 9.109 x 10 -31 kg Atoms of different elements have different masses: the internal structure of an atom p pp pn n n p

10 Nuclear masses are very tiny (~10 -26 kg); invent a new unit of mass - the atomic mass unit (amu) or unified mass unit (u) Define new mass unit as 1 u = 1.660540×10 -27 kg Consider Carbon-12: m p =1.007276 u; m n =1.008665u; m e =0.00055u With this definition, the mass of is exactly 12.000u Atomic and unified mass units

11 What are the approximate masses of the following nuclei? Helium: 2 protons, 2 neutron, 4 nucleons: M≈4u =4 (1.66x10 -27 kg) = 6.64x10 -27 kg Chlorine: 17 protons, 18 neutron, 35 nucleons: M≈35u =35 (1.66x10 -27 kg) = 5.81x10 -26 kg Barium: 56 protons, 83 neutron, 139 nucleons: M≈139u =139 (1.66x10 -27 kg) = 2.31x10 -25 kg These symbols do not represent atoms, they represent nuclei.

12 Coulomb Repulsive Force Separation ~ 2 x 10 -15 m

13 II. Large mass number: 2 He Electrostatic repulsion electrostatc repulsion attractive very short range (~2 fm) nuclear force As size of nucleus increases, more neutrons are required to hold it together p n n p neutron proton n p 4 (A-Z)=Z (A-Z)>Z schematic nucleus I. Small mass number: nnnn p p Nuclear Binding – The strong force

14 Many experiments indicate the nucleus is roughly spherical with a radius given by What is the nuclear mass density of the most common isotope of iron? Nuclear density is constant, independent of A! Nuclear size; Nuclear density

15 Typical Densities MaterialDensity Helium0.18 kg/m 3 Air (dry)1.2 kg/m 3 Styrofoam~100 kg/m 3 Water1000 kg/m 3 Iron7870 kg/m 3 Lead11,340 kg/m 3 Nuclear Matter~10 17 kg/m 3 Neutron Star (a huge nucleus!) ~10 17 kg/m 3

16 Neutron Stars: more massive than the Sun but fit into the Grand Canyon

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